BS EN 61162-450:2011
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Maritime navigation and radiocommunication equipment and systems. Digital interfaces – Multiple talkers and multiple listeners. Ethernet interconnection
| Published By | Publication Date | Number of Pages |
| BSI | 2011 | 66 |
IEC 61162-450:2011(E) specifies interface requirements and methods of test for high speed communication between shipboard navigation and radiocommunication equipment as well as between such systems and other ship systems that need to communicate with navigation and radio-communication equipment. Is based on the application of an appropriate suite of existing international standards to provide a framework for implementing data transfer between devices on a shipboard Ethernet network. Provides a higher speed and higher capacity alternative to the IEC 61162-1 and IEC 61162-2 standards while retaining these standards’ basic data format. Provides a higher data capacity than IEC 61162-3. Specifies an Ethernet based bus type network where any listener may receive messages from any sender.
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 6 | CONTENTS |
| 9 | 1 Scope 2 Normative references |
| 10 | 3 Terms and definitions |
| 13 | 4 General network and equipment requirements 4.1 Network topology example |
| 14 | 4.2 Basic requirements Figures Figure 1 – Network topology example |
| 15 | 4.3 Network function (NF) requirements |
| 16 | Tables Table 1 – Syslog message format Table 2 – Syslog error message codes |
| 17 | 4.4 System function (SF) requirements |
| 18 | 4.5 Serial to network gateway function (SNGF) requirements |
| 19 | 4.6 Other network function (ONF) requirements 5 Low level network requirements 5.1 Electrical and mechanical requirements |
| 20 | Table 3 – Interfaces, connectors and cables |
| 21 | 5.2 Network protocol requirements 5.3 IP Address assignment for equipment 5.4 Multicast address range 6 Transport layer specification 6.1 General |
| 22 | 6.2 UDP messages Figure 2 – Ethernet frame example for a SBM from a rate of turn sensor |
| 23 | Table 4 – Destination multicast addresses and port numbers Table 5 – Destination multicast addresses and port numbers for binary data transfer Table 6 – Destination multicast addresses and port numbers for other services |
| 24 | 7 Application layer specification 7.1 Datagram header 7.2 General IEC 61162-1 sentence transmissions |
| 26 | 7.3 Binary image transfer using UDP multicast |
| 27 | Table 7 – Description of terms Table 8 – Binary image structure |
| 28 | Table 9 – Header format |
| 29 | Table 10 – Binary image descriptor format |
| 30 | Table 11 – Examples of MIME content type for DataType codes Table 12 – Binary image data fragment format |
| 34 | 8 Methods of test and required results 8.1 Test set-up and equipment 8.2 Basic requirements 8.3 Network function (NF) |
| 35 | 8.4 System function (SF) 8.5 Serial to network gateway function (SNGF) |
| 36 | 8.6 Other network function (ONF) 8.7 Low level network |
| 37 | 8.8 Transport layer 8.9 Application layer |
| 38 | 8.10 Error logging |
| 39 | 8.11 Binary image transfer using UDP multicast |
| 41 | Annex A (normative) Classification of IEC 61162-1 talker identifier mnemonics and sentences Table A.1 – Classification of IEC 61162-1 talker identifier mnemonics |
| 43 | Table A.2 – Classification of IEC 61162-1 sentences |
| 47 | Annex B (informative) TAG block example |
| 48 | Table B.1 – Defined parameter-codes |
| 49 | Annex C (normative) Reliable transmission of command-response pair messages Figure C.1 – Command response communications |
| 51 | Figure C.2 – State diagram |
| 54 | Annex D (informative) Network and system design guidance Figure D.1 – General system design architecture |
| 55 | Figure D.2 – Example of ship-shore communication architecture |
| 56 | Figure D.3 – Security infrastructure |
| 57 | Table D.1 – Overview of possible security functions |
| 58 | Figure D.4 – Decoupled system Figure D.5 – Loosely coupled system |
| 59 | Figure D.6 – Strongly coupled system |
| 60 | Table D.2 – Network failure propagation possibilities |
| 62 | Bibliography |
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